class B { /* ... */ }; class D1 : private B { /* ... */ }; class D2 : public B { /* ... */ }; class D3 : B { /* ... */ }; // B private by default struct D4 : public B { /* ... */ }; struct D5 : private B { /* ... */ }; struct D6 : B { /* ... */ }; // B public by default class D7 : protected B { /* ... */ }; struct D8 : protected B { /* ... */ };
class B { public: int mi; // non-static member static int si; // static member }; class D : private B { }; class DD : public D { void f(); }; void DD::f() { mi = 3; // error: mi is private in D si = 3; // error: si is private in D ::B b; b.mi = 3; // OK (b.mi is different from this->mi) b.si = 3; // OK (b.si is different from this->si) ::B::si = 3; // OK ::B* bp1 = this; // error: B is a private base class ::B* bp2 = (::B*)this; // OK with cast bp2->mi = 3; // OK: access through a pointer to B. }— end note
class B { public: int m; }; class S: private B { friend class N; }; class N: private S { void f() { B* p = this; // OK because class S satisfies the fourth condition above: B is a base class of N // accessible in f() because B is an accessible base class of S and S is an accessible // base class of N. } };— end example
class B; class A { private: int i; friend void f(B*); }; class B : public A { }; void f(B* p) { p->i = 1; // OK: B* can be implicitly converted to A*, and f has access to i in A }— end example